CN107218704B

CN107218704B - Control method and control system of air conditioner and air conditioner

Info

Publication number: CN107218704B
Application number: CN201710465710.5A
Authority: CN
Inventors: 闫长林; 陈良锐
Original assignee: GD Midea Air Conditioning Equipment Co Ltd
Current assignee: GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2017-06-19
Filing date: 2017-06-19
Publication date: 2020-09-04
Anticipated expiration: 2037-06-19
Also published as: CN107218704A

Abstract

The invention provides a control method and a control system of an air conditioner and the air conditioner, wherein the air conditioner comprises an air wheel component, a panel and an ultrasonic atomization component, the ultrasonic atomization component comprises an atomization box, an electrolytic water component, an atomizer, a first fog outlet pipe and a second fog outlet pipe, the first fog outlet pipe and the second fog outlet pipe respectively extend to two sides of the air wheel component, and the control method of the air conditioner comprises the following steps: detecting a working mode instruction; and controlling the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe and controlling the working states of the air wheel assembly, the atomizer and the electrolytic water component according to the working mode instruction. The control method of the air conditioner provided by the invention can realize the function of humidifying the indoor air and/or self-cleaning the inside of the air conditioner, can sterilize the indoor air while humidifying the indoor air and/or self-cleaning the inside of the air conditioner, has various functions, improves the satisfaction of users, has a simple product structure, and improves the market competitiveness of the product.

Description

Control method and control system of air conditioner and air conditioner

Technical Field

The invention relates to the technical field of air conditioner control, in particular to a control method of an air conditioner, a control system of the air conditioner and the air conditioner.

Background

The air conditioner heats or refrigerates for a long time as the equipment commonly used of adjusting indoor temperature and can make the humidity of room air reduce, influences the comfort level that the user used, and the air conditioner uses its inside dust that can of avoiding for a long time for have the dust in the wind that blows off and influence user's health, reduce user's use and experience. The air conditioner in the related art adds the humidification device in order to reach the purpose of humidifying the indoor air, or has set up dust pelletizing system in order to realize wasing inside purpose for the function singleness of air conditioner can't satisfy the demand of user to the multiple functions of air conditioner better, reduces user's use and experiences.

Disclosure of Invention

In order to solve at least one of the above technical problems, an embodiment of a first aspect of the present invention proposes a control method of an air conditioner.

The embodiment of the second aspect of the invention also provides a control system of the air conditioner.

In an embodiment of another aspect of the invention, an air conditioner is also provided.

In view of this, according to an embodiment of the first aspect of the present invention, the present invention provides a control method of an air conditioner, the air conditioner includes an air wheel component and a panel, an air door is disposed on the panel, the air conditioner further includes an ultrasonic atomization component, the ultrasonic atomization component includes an atomization box, an electrolytic water component, an atomizer, a first mist outlet pipe and a second mist outlet pipe, the atomization box is used for containing water and is connected with the electrolytic water component, the atomizer, the first mist outlet pipe and the second mist outlet pipe respectively extend to two sides of the air wheel component, and the first mist outlet pipe is located on a side of the air wheel component close to the air door, the control method of the air conditioner includes: detecting a working mode instruction; and controlling the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe and controlling the working states of the air wheel assembly, the atomizer and the electrolytic water component according to the working mode instruction.

The invention provides a control method of an air conditioner, the air conditioner comprises an air wheel component, a panel and an ultrasonic atomization component, the panel is provided with an air door, the ultrasonic atomization component comprises an atomization box, an electrolytic water component, an atomizer, a first fog outlet pipe and a second fog outlet pipe, the first fog outlet pipe and the second fog outlet pipe are connected with the atomization box and respectively extend to one side of the air wheel component close to the air door and the other side of the air wheel component, the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe are controlled according to the working mode instructions by detecting the working mode instructions, the working states of the air wheel component, the atomizer and the electrolytic water component are controlled, when the atomizer works on water in the atomization box to generate water mist, the air wheel component works to blow out the water mist to the indoor environment through the first fog outlet pipe in the opening state and the air door in the opening state to humidify the indoor air, the comfort level of the user is effectively improved; when the air door is in a closed state, water mist generated by the work of the atomizer flows in the air conditioner along with the work of the air wheel assembly through the second mist outlet pipe in an open state or the first mist outlet pipe and the second mist outlet pipe and can infiltrate the air wheel assembly and other components, thereby effectively reducing the dust deposition in the air conditioner, ensuring the cleanness in the air conditioner, enabling the air blown out of the air conditioner to be clean and dustless and being beneficial to the health of users; simultaneously, water production through the electrolytic water part work in the atomizing box has the acidic water ion of bactericidal action, make atomizer work function can produce the water smoke that has bactericidal action to the hydroenergy that contains the acidic water ion, and then guaranteed good bactericidal effect effectively when water smoke is to indoor air humidification and/or inside abluent, further guaranteed to blow off the aseptic nature to the wind of external environment, improve comfort level and the security that the user used, promote user's use and experience, improve the satisfaction that the user used.

Furthermore, through according to the operating mode instruction, the control air door, the first fog outlet pipe and the second fog outlet pipe are in different states, the control air wheel assembly, the atomizer and the electrolytic water component are in different working states, different functions of the air conditioner for humidifying the indoor air, automatically cleaning the indoor air and automatically cleaning the indoor air can be realized, different functions of the air conditioner for automatically cleaning the indoor air and sterilizing the indoor air and automatically cleaning the indoor air can be realized simultaneously, the functions are various, the use requirements of different.

In addition, the control method of the air conditioner in the above embodiment provided by the present invention may further have the following additional technical features:

in above-mentioned technical scheme, preferably, the operating mode instruction includes humidification air supply instruction, according to the operating mode instruction, controls the operating condition of air door, first fog exit tube, second fog exit tube, control the operating condition of air wheel subassembly, atomizer, electrolytic water part, specifically includes: controlling the air door to be in an open state according to the humidifying air supply instruction, and controlling the air wheel assembly to start working; detecting the current environment humidity in real time; judging whether the detected current humidity value is less than or equal to a first preset humidity value or not; if so, controlling the first fog outlet pipe to be in an open state, controlling the second fog outlet pipe to be in a closed state, controlling the atomizer to start working, and stopping the electrolytic water component; otherwise, controlling the first fog outlet pipe and the second fog outlet pipe to be in a closed state, controlling the atomizer and the electrolytic water component to stop working, and returning to detect the current environment humidity in real time.

In the technical scheme, the working mode instruction comprises a humidifying air supply instruction, the air door is controlled to be in an open state according to the humidifying air supply instruction, the air wheel assembly is controlled to start working, the air conditioner can be ensured to blow air in time, whether the detected current humidity value is less than or equal to a first preset humidity value is judged by detecting the current environment humidity in real time, if so, the current indoor environment air humidity value is lower, the atomizer is controlled to start working by controlling the first fog outlet pipe to be in an open state and the second fog outlet pipe to be in a closed state, the electrolytic water component stops working, so that water fog generated by the water generated by the operation of the atomizer flows into one side of the air wheel assembly close to the air door through the first fog outlet pipe, the water flows through the open air door along with the air to blow out to the indoor environment to humidify the air of the indoor environment under the working state of the air wheel assembly, and the good humidity, the comfort level of the user is improved, and the using satisfaction degree of the user is improved; when the current humidity value is greater than the first preset value, the indoor air humidity meets the requirements of users, the indoor air is not required to be humidified temporarily, the first fog outlet pipe and the second fog outlet pipe are controlled to be in a closed state, the atomizer and the electrolytic water component are controlled to stop working, the current environmental humidity is returned and detected in real time, the energy is effectively saved, the waste is avoided, the use cost is saved, the current environmental humidity can be detected in real time, whether the indoor air is humidified can be accurately controlled according to the relation between the current humidity value and the first preset humidity value, the satisfaction degree of the users is further improved, and the market competitiveness of products is improved.

In any of the above technical solutions, preferably, after the step of controlling the first mist outlet pipe to be in an open state, controlling the second mist outlet pipe to be in a closed state, controlling the atomizer to start to operate, and stopping the operation of the electrolytic water component, the method further includes: judging whether the current humidity value is smaller than or equal to a second preset humidity value or not; if so, controlling the second fog outlet pipe to be in an open state, returning and detecting the current environment humidity in real time; otherwise, the first fog outlet pipe is continuously controlled to be in an open state, the second fog outlet pipe is in a closed state, the atomizer is controlled to start working, and the electrolytic water component stops working; wherein the second preset humidity value is smaller than the first preset humidity value.

In the technical scheme, whether the current humidity value is smaller than or equal to a second preset humidity value which is smaller than the first preset humidity value or not is judged, if yes, the indoor air humidity value is far smaller than the first preset humidity value, the second fog outlet pipe is controlled to be in an open state, water mist flows into one side, away from an air door, of an air wheel assembly through the second fog outlet pipe, flows into a room along with airflow in a working state of the air wheel assembly to humidify the indoor air, the amount of the indoor environment water mist flowing into the room is increased, the humidity of the indoor air is favorably and quickly increased to achieve the comfort level of a user, the satisfaction level of the user is improved, meanwhile, the current environment humidity is returned and detected in real time, the open states of the first fog outlet pipe and the second fog outlet pipe and the working state of an atomizer are favorably controlled according to the relationship between the current humidity value and the first preset humidity value and the second preset humidity value, the humidity control device is favorable for ensuring good and stable humidity of indoor air, avoids the influence on the comfort level of a user caused by continuous humidification due to higher humidity of the indoor air, further improves the satisfaction degree of the user, saves the use cost and avoids waste.

When the current humidity value is greater than the second preset humidity value, the humidity for explaining the indoor environment is not lower, the first fog outlet pipe is controlled to be in the opening state through continuing to control, the second fog outlet pipe is in the closing state, the atomizer is controlled to start working, the electrolytic water component stops working, the humidity for ensuring the indoor environment can be ensured to be in the opening state, the comfort level of a user can be achieved quickly and stably, the phenomenon that the second fog outlet pipe is opened simultaneously to increase the workload of the atomizer and waste energy is avoided, the use cost is effectively saved, and the satisfaction degree of the user is improved.

In any of the above technical solutions, preferably, the working mode instruction includes a self-cleaning instruction, and according to the working mode instruction, the opening states of the damper, the first mist outlet pipe and the second mist outlet pipe are controlled, and the working states of the damper wheel assembly, the atomizer and the electrolytic water component are controlled, specifically including: according to the self-cleaning instruction, the air door is controlled to be in a closed state, the first fog outlet pipe and the second fog outlet pipe are both in an open state, the atomizer and the air wheel assembly are controlled to start working, and the electrolytic water component stops working.

In the technical scheme, the working mode instruction comprises a self-cleaning instruction, the air door is controlled to be in a closed state according to the self-cleaning instruction, the first fog outlet pipe and the second fog outlet pipe are both in an open state, the atomizer and the air wheel component are controlled to start working, and the water electrolysis component stops working, so that water fog generated by the operation of the atomizer acted on water flows into two sides of the air wheel component through the first fog outlet pipe and the second fog outlet pipe in the open state, the water fog flows inside the air conditioner along with the wind flow under the action of the air wheel component because the air door is in the closed state, and infiltrates the air wheel component and other components inside the air conditioner, the dust accumulation amount inside the air conditioner is effectively reduced, the cleanness inside the air conditioner is improved, the phenomenon that the dust accumulation inside the air conditioner is more and the air flow blows out to the indoor environment to influence the health of a user is avoided, and the cleanness and no dust of the air blown out to the indoor, the health of the user is facilitated, the use experience of the user is improved, and the use satisfaction of the user is improved.

In any of the above technical solutions, preferably, the method further includes: and controlling the first fog outlet pipe to be in a closed state.

In the technical scheme, the first fog outlet pipe is controlled to be in a closed state, the second fog outlet pipe is controlled to be in an open state, the second fog outlet pipe is located on one side, away from the air door, of the air wheel assembly and is located in the air inlet area of the air wheel assembly, so that water fog generated by the work of the atomizer flows into the air inlet area of the air wheel assembly through the second fog outlet pipe, and when the air door is in the closed state, the water fog flows in the air conditioner through the air flow along with the rotation of the air wheel assembly, so that the air wheel and other components in the air conditioner can be infiltrated, the dust deposition amount in the air conditioner is reduced, the cleanness in the air conditioner is effectively ensured, when the second fog outlet pipe is in the open state, the first fog outlet pipe is closed, the good cleanness in the air conditioner can be ensured, the use cost is saved, and the use satisfaction degree of a user is.

In any of the above technical solutions, preferably, the working mode instruction includes a humidification self-cleaning comprehensive instruction, and according to the working mode instruction, the opening states of the damper, the first mist outlet pipe and the second mist outlet pipe are controlled, and the working states of the damper assembly, the atomizer and the electrolytic water component are controlled, specifically including: according to the humidifying and self-cleaning comprehensive instruction, the air door, the first fog outlet pipe and the second fog outlet pipe are all controlled to be in an open state, the atomizer and the air wheel component are controlled to start working, and the electrolytic water component stops working.

In the technical scheme, the working mode instruction comprises a humidifying self-cleaning comprehensive instruction, the air door, the first fog outlet pipe and the second fog outlet pipe are controlled to be in an open state according to the humidifying self-cleaning comprehensive instruction, the atomizer and the air wheel component are controlled to start working, the electrolytic water component stops working, so that water mist generated by the operation of the atomizer acts on water and flows into one side, close to the air door, of the air wheel component through the first fog outlet pipe, the water mist flows into indoor environment through the air door in the open state along with the rotation of the air wheel component to humidify the indoor air, the humidity of the indoor environment is improved, the use comfort of a user is improved, meanwhile, the water mist flows into one side, far away from the air door, of the air wheel component through the second fog outlet pipe, the water mist rotates along with the air wheel component through an air inlet area of the air wheel component, the water mist soaks the air wheel in the process of, the wind blown out to the indoor environment through the wind wheel is clean and dustless, the health of a user is facilitated, and the use experience of the user is improved.

In any of the above technical solutions, preferably, the method further includes: detecting a sterilization instruction; and controlling the electrolytic water component to start working according to the sterilization instruction.

In the technical scheme, the air conditioner controls the electrolytic water component to start working according to the sterilization instruction by detecting the sterilization instruction in the process of executing the humidification air supply instruction, the self-cleaning instruction and the humidification self-cleaning comprehensive instruction, so that the electrolytic water component works and acts on water to generate acidic water ions with sterilization effect, the atomizer works and acts on water containing the acidic water ions to generate water mist with sterilization effect, and further, the water mist can humidify indoor air and/or clean the inside of the air conditioner and sterilize the indoor air and/or the inside of the air conditioner at the same time, the sterility inside the air conditioner and the sterility of wind blown out to the external environment are ensured, the body health of a user is further facilitated, the requirements of users with weak constitution or easy-to-sense constitution can be met, the application range of products is expanded, and the comfort level and the safety of the users in use are improved, the use experience of the user is improved, and the market competitiveness of the product is improved.

In any of the above technical solutions, preferably, the method further includes: and controlling the atomizer to stop working for a preset time and then restarting working.

In this technical scheme, after predetermineeing for a long time and restart work through control atomizer stop work for the abundant electrolysis of water in the electrolytic water part work produces a large amount of acid water ions atomizer restart work behind the atomizer, and then can guarantee that the atomizer resumes work the water smoke that produces has good bactericidal effect, avoid the atomizer to work always because of the water in the atomizing box is not by abundant electrolysis and influence the bactericidal effect of water smoke, good bactericidal effect has been guaranteed effectively, the satisfaction that the improvement user used.

According to an embodiment of the second aspect of the present invention, a control system of an air conditioner is further provided, the air conditioner includes an air wheel component and a panel, an air door is disposed on the panel, the air conditioner further includes an ultrasonic atomization component, the ultrasonic atomization component includes an atomization box, an electrolytic water component, an atomizer, a first mist outlet pipe and a second mist outlet pipe, the atomization box is used for containing water and is connected with the electrolytic water component, the atomizer, the first mist outlet pipe and the second mist outlet pipe extend to two sides of the air wheel component respectively, and the first mist outlet pipe is located on one side of the air wheel component close to the air door, the control system of the air conditioner includes: the detection unit is used for detecting the working mode instruction; and the control unit is used for controlling the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe and controlling the working states of the air wheel assembly, the atomizer and the electrolytic water component according to the working mode instruction.

The embodiment of the second aspect of the invention provides a control system of an air conditioner, the air conditioner comprises an air wheel component, a panel and an ultrasonic atomization component, an air door is arranged on the panel, the ultrasonic atomization component comprises an atomization box, an electrolytic water component, an atomizer, a first fog outlet pipe and a second fog outlet pipe, the first fog outlet pipe and the second fog outlet pipe are connected with the atomization box and respectively extend to one side of the air wheel component close to the air door and the other side of the air wheel component, a unit detects a working mode instruction, a control unit controls the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe according to the working mode instruction and controls the working states of the air wheel component, the atomizer and the electrolytic water component, so that when the atomizer works on water in the atomization box to generate water mist, the air wheel component works to blow out the water mist to the indoor environment through the first fog outlet pipe in the opening state and the air door in the opening state to humidify the indoor air, the comfort level of the user is effectively improved; when the air door is in a closed state, water mist generated by the work of the atomizer flows in the air conditioner along with the work of the air wheel assembly through the second mist outlet pipe in an open state or the first mist outlet pipe and the second mist outlet pipe and can infiltrate the air wheel assembly and other components, thereby effectively reducing the dust deposition in the air conditioner, ensuring the cleanness in the air conditioner, enabling the air blown out of the air conditioner to be clean and dustless and being beneficial to the health of users; simultaneously, water production through the electrolytic water part work in the atomizing box has the acidic water ion of bactericidal action, make atomizer work function can produce the water smoke that has bactericidal action to the hydroenergy that contains the acidic water ion, and then guaranteed good bactericidal effect effectively when water smoke is to indoor air humidification and/or inside abluent, further guaranteed to blow off the aseptic nature to the wind of external environment, improve comfort level and the security that the user used, promote user's use and experience, improve the satisfaction that the user used.

Further, according to the working mode instruction, the control air door, the first fog outlet pipe and the second fog outlet pipe are in different states through the control unit, the control air wheel assembly, the atomizer and the electrolytic water component are in different working states, the air conditioner can humidify indoor air, self-cleaning is carried out in the air conditioner, different functions of simultaneously carrying out humidification and self-cleaning can be realized, simultaneously, the different functions of simultaneously carrying out humidification and sterilization on the indoor air, self-cleaning and sterilization in the indoor air, sterilization and humidification and self-cleaning are carried out simultaneously, the functions are various, the use requirements of different users can be met, the application range is wide, the functions can be realized by additionally arranging the atomizer component, the structure is simple, and the market competitiveness of products is effectively improved.

In the above technical solution, preferably, the operation mode command includes a humidification air supply command, and the control unit includes: the first execution unit is used for controlling the air door to be in an open state and controlling the air wheel assembly to start working according to the humidifying air supply instruction; the first detection unit is used for detecting the current environment humidity in real time; the first judgment unit is used for judging whether the detected current humidity value is less than or equal to a first preset humidity value or not; the second execution unit is used for controlling the first fog outlet pipe to be in an open state and the second fog outlet pipe to be in a closed state when the judgment result of the first judgment unit is yes, controlling the atomizer to start working and stopping the electrolytic water component; otherwise, controlling the first fog outlet pipe and the second fog outlet pipe to be in a closed state, controlling the atomizer and the electrolytic water component to stop working, and returning to detect the current environment humidity in real time.

In the technical scheme, the working mode instruction comprises a humidifying air supply instruction, the air door is controlled to be in an open state through the first execution unit according to the humidifying air supply instruction, the air wheel assembly is controlled to start working, the air conditioner can blow air in time, the current environmental humidity is detected in real time through the first detection unit, the first judgment unit judges whether the detected current humidity value is smaller than or equal to a first preset humidity value, if so, the current indoor environmental air humidity value is lower, the first fog outlet pipe is controlled to be in an open state through the second execution unit, the second fog outlet pipe is controlled to be in a closed state, the atomizer is controlled to start working, the electrolytic water component stops working, water fog generated by water generated by the operation of the atomizer flows into one side, close to the air door, of the air wheel assembly through the open air door along with the air flow in the working state of the air wheel assembly to humidify the air of the indoor environment, the humidity of indoor air is effectively guaranteed, the comfort level of a user is improved, and the using satisfaction degree of the user is improved; when the current humidity value is greater than the first preset value, the indoor air humidity meets the requirements of users, the indoor air is not required to be humidified temporarily, the first fog outlet pipe and the second fog outlet pipe are controlled to be in a closed state through the second execution unit, the atomizer and the electrolytic water component are controlled to stop working, the current environment humidity is returned and detected in real time, the energy is effectively saved, the waste is avoided, the use cost is saved, whether the indoor air is humidified can be accurately controlled according to the relation between the current humidity value and the first preset humidity value through detecting the current environment humidity in real time, the satisfaction degree of the users is further improved, and the market competitiveness of products is improved.

In any one of the above technical solutions, preferably, the control unit further includes: the second judgment unit is used for judging whether the current humidity value is smaller than or equal to a second preset humidity value or not; and the third execution unit is used for controlling the second fog outlet pipe to be in an open state and returning to and detecting the current environmental humidity in real time when the judgment result of the second judgment unit is yes, otherwise, continuously controlling the first fog outlet pipe to be in the open state and the second fog outlet pipe to be in a closed state, controlling the atomizer to start working and stopping the electrolytic water component, wherein the second preset humidity value is smaller than the first preset humidity value.

In the technical scheme, whether the current humidity value is smaller than or equal to a second preset humidity value is judged through a second judging unit, the second preset humidity value is smaller than a first preset humidity value, if yes, the indoor air humidity value is far smaller than the first preset humidity value, a second fog outlet pipe is controlled to be in an open state through a third execution unit, water fog flows into one side, far away from an air door, of an air wheel assembly through the second fog outlet pipe, the water fog flows into a room together with air flow in the working state of the air wheel assembly to humidify the indoor air, the amount of the water fog flowing into the indoor environment is increased, the humidity of the indoor air is favorably and rapidly increased to achieve the comfort level of a user, the satisfaction degree of the user is improved, meanwhile, the third execution unit returns to detect the current environment humidity in real time, and is favorable for controlling the first fog outlet pipe according to the relation between the current humidity value and the first preset humidity value and the second preset humidity value, The opening state of the second fog outlet pipe and the working state of the atomizer are favorable for guaranteeing good and stable humidity of indoor air, the comfort level that the humidity of the indoor air is high and the user is influenced by continuous humidification is avoided, the satisfaction degree of the user is further improved, the use cost is saved, and the waste is avoided.

When the current humidity value is greater than the second preset humidity value, the humidity for explaining the indoor environment is not lower, the first fog outlet pipe is continuously controlled to be in the opening state through the third execution unit, the second fog outlet pipe is in the closing state, the atomizer is controlled to start to work, the electrolytic water component stops working, the humidity for ensuring the indoor environment can be ensured to be fast and stably reach the comfort level of a user when the first fog outlet pipe is in the opening state, the phenomenon that the second fog outlet pipe is opened simultaneously to increase the workload of the atomizer and waste energy is avoided, the use cost is effectively saved, and the satisfaction degree of the user is improved.

In any of the above technical solutions, preferably, the operation mode command includes a self-cleaning command, and the control unit includes: and the fourth execution unit is used for controlling the air door to be in a closed state according to a self-cleaning instruction, controlling the first fog outlet pipe and the second fog outlet pipe to be in an open state, controlling the atomizer and the air wheel assembly to start working, and stopping the electrolytic water component.

In the technical scheme, the working mode instruction comprises a self-cleaning instruction, the fourth execution unit controls the air door to be in a closed state according to the self-cleaning instruction, the first fog outlet pipe and the second fog outlet pipe are both in an open state, the atomizer and the air wheel component are controlled to start working, and the electrolytic water component stops working, so that water fog generated by water during working of the atomizer flows into two sides of the air wheel component through the first fog outlet pipe and the second fog outlet pipe in the open state, the water fog flows inside the air conditioner along with the wind flow under the action of the air wheel component because the air door is in the closed state, and infiltrates the air wheel component and other components inside the air conditioner, the dust accumulation amount inside the air conditioner is effectively reduced, the cleanness inside the air conditioner is improved, the situation that the health of a user is influenced by the fact that the dust accumulation inside the air conditioner is more and the wind flow blows out to the indoor environment is avoided, and the cleanness of the wind to the indoor environment is effectively guaranteed, the health of the user is facilitated, the use experience of the user is improved, and the use satisfaction of the user is improved.

In any of the above technical solutions, preferably, the fourth execution unit is further configured to control the first mist outlet pipe to be in a closed state.

In the technical scheme, the first fog outlet pipe is controlled to be in a closed state through the fourth execution unit, the second fog outlet pipe is controlled to be in an open state, the second fog outlet pipe is located on one side, far away from the air door, of the air wheel component and is located in the air inlet area of the air wheel component, so that water fog generated by the work of the atomizer flows into the air inlet area of the air wheel component through the second fog outlet pipe, when the air door is in the closed state, the water fog flows in the air conditioner along with the rotation of the air wheel component through the air flow, and then the air wheel and other components in the air conditioner can be infiltrated, the dust deposition amount in the air conditioner is reduced, the cleanness in the air conditioner is effectively guaranteed, when the second fog outlet pipe is in the open state, the first fog outlet pipe is closed, the good cleanness in the air conditioner can be guaranteed, the use cost is saved, and the use satisfaction of a user is improved.

In any one of the above technical solutions, preferably, the operation mode command includes a humidification self-cleaning comprehensive command, and the control unit includes: and the fifth execution unit is used for controlling the air door, the first fog outlet pipe and the second fog outlet pipe to be in an open state according to the humidifying and self-cleaning comprehensive instruction, controlling the atomizer and the air wheel assembly to start working, and stopping the electrolytic water component.

In the technical scheme, the working mode instruction comprises a humidifying self-cleaning comprehensive instruction, the air door, the first fog outlet pipe and the second fog outlet pipe are controlled to be in an open state through the fifth execution unit according to the humidifying self-cleaning comprehensive instruction, the atomizer and the air wheel component are controlled to start working, the electrolytic water component stops working, water mist generated by water during working of the atomizer flows into one side, close to the air door, of the air wheel component through the first fog outlet pipe and flows into indoor environment through the air door in the open state along with rotation of the air wheel component to humidify the indoor air through air flow, the humidity of the indoor environment is improved, the use comfort of a user is improved, meanwhile, the water mist flows into one side, far away from the air door, of the air wheel component through the second fog outlet pipe and rotates along with the air wheel component in an air inlet area of the air wheel component, and the water mist soaks the air wheel in the process of flowing through the air wheel to effectively reduce, the wind blown out to the indoor environment through the wind wheel is clean and dustless, the health of a user is facilitated, and the use experience of the user is improved.

In any one of the above technical solutions, preferably, the control unit further includes: the second detection unit is used for detecting a sterilization instruction; and the sixth execution unit is used for controlling the electrolytic water component to start working according to the sterilization instruction.

In the technical scheme, the air conditioner detects a sterilization instruction through the second detection unit in the process of executing a humidifying air supply instruction, a self-cleaning instruction and a humidifying self-cleaning comprehensive instruction, the sixth execution unit controls the electrolytic water component to start working according to the sterilization instruction, so that the electrolytic water component works on water to generate acidic water ions with sterilization effect, the atomizer works on water containing the acidic water ions to generate water mist with sterilization effect, and then the water mist humidifies indoor air and/or cleans the inside of the air conditioner and simultaneously sterilizes the indoor air and/or the inside of the air conditioner, thereby ensuring the sterility of the inside of the air conditioner and the sterility of wind blown out to the external environment, further being beneficial to the body health of a user, meeting the requirements of users with weak constitution or easy-to-sense constitution and expanding the application range of products, the comfort level and the safety of the user use are improved, the use experience of the user is improved, and the market competitiveness of the product is improved.

In any of the above technical solutions, preferably, the sixth executing unit is further configured to control the atomizer to stop operating for a preset time period and then restart operating.

In this technical scheme, control atomizer stop work through sixth execution unit and preset after long time and restart work again for the atomizer restart work after the abundant electrolysis of water in the electrolytic water part work will atomize the box produces a large amount of acid water ions, and then can guarantee that the atomizer restart work the water smoke that produces has good bactericidal effect, avoid atomizer work always because of the water in the atomizing box not enough electrolysis influence the bactericidal effect of water smoke, good bactericidal effect has been guaranteed effectively, the satisfaction that the improvement user used.

According to another aspect of the embodiment of the present invention, an air conditioner is further provided, which includes the control system of the air conditioner according to any one of the above technical solutions.

An embodiment of another aspect of the present invention provides an air conditioner, including the control system of the air conditioner according to any one of the above technical solutions. Since the air conditioner provided in an embodiment of a further aspect of the present invention includes the control system of the air conditioner provided in an embodiment of the second aspect, all the advantageous technical effects of the control system of the air conditioner are achieved, and are not described herein again.

In the above technical solution, preferably, the method further includes: the air duct component is arranged on one side of the air duct component close to the air door; the motor cover component is arranged on one side of the air wheel component far away from the air door and is connected with the air duct component; the evaporator component is arranged on one side of the motor cover component far away from the wind wheel component and is connected with the motor cover component; and the air channel rear partition plate is positioned between the motor cover component and the evaporator component and connected with the motor cover component and the evaporator component, wherein an atomization box of an ultrasonic atomization component of the air conditioner is positioned above the air channel component and the motor cover component, the first fog outlet pipe is communicated with the air channel component, and the second fog outlet pipe is communicated with the air channel rear partition plate.

In the technical scheme, the air conditioner also comprises an air duct component, a motor cover component, an evaporator component and an air duct rear partition plate, wherein the air duct component is arranged on one side of the air duct component close to the air door, so that air generated by the operation of the air wheel is divided and guided by the air duct component and then is blown out to the indoor environment through the air door, different air outlet directions can be met, and the using satisfaction degree of a user is improved; the motor cover part sets up and is connected with the wind channel subassembly in the one side that the air door was kept away from to the wind wheel subassembly, make the wind wheel subassembly install the inside at motor cover part and wind channel subassembly, the evaporimeter subassembly sets up the one side of keeping away from the wind wheel subassembly at the motor cover part and is connected with the motor cover part, make the evaporimeter subassembly be located the air inlet district side of wind wheel subassembly, and then wind wheel subassembly work can make the energy transfer that evaporimeter subassembly work produced to one side that the wind wheel subassembly is close to the air door and blow off to indoor environment and realize heating or refrigeration, the baffle is located between motor cover part and the evaporimeter subassembly and connects motor cover part and evaporimeter subassembly behind the wind channel, can reduce the loss of the wind that wind wheel subassembly work produced in the inside of air conditioner, and then guarantee sufficient air output, the satisfaction. The atomization box of the ultrasonic atomization assembly of the air conditioner is positioned above the air channel assembly and the motor cover component, the first fog outlet pipe is communicated with the air channel assembly, the second fog outlet pipe is communicated with the air channel rear partition plate, the first fog outlet pipe and the second fog outlet pipe can be ensured to be positioned on two sides of the air channel assembly respectively, and therefore water mist flowing out of the first fog outlet pipe can be smoothly and quickly blown out to an indoor environment through the air door after being shunted and guided by the air channel assembly in the working state of the air channel assembly, the requirements of a user on humidification and air supply of air outlets where different air doors of the air conditioner are positioned are met, meanwhile, the loss of the water mist in the air conditioner is reduced, good fog outlet quantity is further ensured, good humidification effect of indoor air is ensured, and the satisfaction degree of the user in use is improved; the water mist flowing out of the second mist outlet pipe soaks the air wheel assembly, the air duct rear partition plate and the motor cover component inside the air conditioner in the working state of the air wheel assembly, the dust deposition amount inside the air conditioner is reduced, the cleanness and the dust-free performance of air outlet of the air conditioner are further guaranteed, the use experience of a user is improved, and the use satisfaction of the user is improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a flowchart illustrating a control method of an air conditioner according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a control method of an air conditioner according to still another embodiment of the present invention;

fig. 3 is a flowchart illustrating a control method of an air conditioner according to another embodiment of the present invention;

fig. 4 is a flowchart illustrating a control method of an air conditioner according to still another embodiment of the present invention;

FIG. 5a is a schematic block diagram of a control system of an air conditioner according to an embodiment of the present invention;

fig. 5b is a schematic block diagram of a control system of an air conditioner according to still another embodiment of the present invention;

fig. 6 is a schematic block diagram of an air conditioner in an embodiment of the present invention;

FIG. 7 is a schematic view showing one direction structure of an ultrasonic atomizing unit of an air conditioner in an embodiment of the present invention;

FIG. 8 is a schematic view showing another direction of the ultrasonic atomizing unit of the air conditioner in the embodiment of the present invention shown in FIG. 7;

FIG. 9 is a cross-sectional view of an ultrasonic atomizing assembly of an air conditioner in accordance with an embodiment of the present invention;

FIG. 10 is a cross-sectional view of an ultrasonic atomizing assembly for an air conditioner in accordance with another embodiment of the present invention;

FIG. 11 is a top view of the ultrasonic atomizing assembly of the air conditioner in the embodiment of the present invention shown in FIG. 7;

FIG. 12 is a schematic cross-sectional view taken at A-A of the ultrasonic atomizing assembly of the air conditioner in the embodiment of the present invention shown in FIG. 11;

FIG. 13 is a schematic cross-sectional view at B-B of the ultrasonic atomizing assembly of the air conditioner in the embodiment of the present invention shown in FIG. 11;

fig. 14 is a schematic cross-sectional view at C-C of the ultrasonic atomizing assembly of the air conditioner in the embodiment of the present invention shown in fig. 11.

Wherein, the correspondence between the reference numbers and the part names in fig. 7 to 14 is:

10 ultrasonic atomization component, 102 atomization box, 104 atomizer, 106 electrolytic water component.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A control method of an air conditioner, a control system of an air conditioner, and an air conditioner according to some embodiments of the present invention are described below with reference to fig. 1 to 14.

The invention provides a control method of an air conditioner, the air conditioner comprises an air wheel component and a panel, an air door is arranged on the panel, the air conditioner also comprises an ultrasonic atomization component, the ultrasonic atomization component comprises an atomization box, an electrolytic water component, an atomizer, a first fog outlet pipe and a second fog outlet pipe, the atomization box is used for containing water and is connected with the electrolytic water component, the atomizer, the first fog outlet pipe and the second fog outlet pipe respectively extend to two sides of the air wheel component, and the first fog outlet pipe is positioned on one side of the air wheel component close to the air door, as shown in figure 1, the control method of the air conditioner of one embodiment of the invention comprises the following steps:

s102, detecting a working mode instruction;

and S104, controlling the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe and controlling the working states of the air wheel assembly, the atomizer and the electrolytic water component according to the working mode instruction.

In an embodiment of the present invention, preferably, the operation mode command includes a humidification air supply command, and as shown in fig. 2, the control method of the air conditioner according to another embodiment of the present invention includes:

s202, detecting a working mode instruction;

s204, controlling the air door to be in an open state and controlling the air wheel assembly to start working according to the humidifying air supply instruction;

s206, detecting the current environment humidity in real time;

s208, judging whether the detected current humidity value is less than or equal to a first preset humidity value or not; if yes, go to step S210, otherwise go to step S212;

s210, controlling the first fog outlet pipe to be in an open state, controlling the second fog outlet pipe to be in a closed state, controlling the atomizer to start working, and stopping the electrolytic water component;

and S212, controlling the first fog outlet pipe and the second fog outlet pipe to be in a closed state, controlling the atomizer and the electrolytic water part to stop working, and returning to the step S206.

The control method of the air conditioner provided by the invention has the advantages that the working mode instruction comprises a humidifying air supply instruction, the air door is controlled to be in an open state according to the humidifying air supply instruction, the air wheel component is controlled to start working, the air conditioner can be ensured to blow in time, whether the detected current humidity value is less than or equal to a first preset humidity value is judged by detecting the current environment humidity in real time, if yes, the current indoor environment air humidity value is lower, the atomizer is controlled to start working by controlling the first fog outlet pipe to be in an open state and the second fog outlet pipe to be in a closed state, the electrolytic water component stops working, so that water fog generated by the water generated by the operation of the atomizer flows into one side, close to the air door, of the air wheel component through the open air door along with the air, blows out to the indoor environment to humidify the air of the indoor environment, the humidity of indoor air is effectively guaranteed, the comfort level of a user is improved, and the using satisfaction degree of the user is improved; when the current humidity value is greater than the first preset value, the indoor air humidity meets the requirements of users, the indoor air is not required to be humidified temporarily, the first fog outlet pipe and the second fog outlet pipe are controlled to be in a closed state, the atomizer and the electrolytic water component are controlled to stop working, the current environmental humidity is returned and detected in real time, the energy is effectively saved, the waste is avoided, the use cost is saved, the current environmental humidity can be detected in real time, whether the indoor air is humidified can be accurately controlled according to the relation between the current humidity value and the first preset humidity value, the satisfaction degree of the users is further improved, and the market competitiveness of products is improved.

A control method of an air conditioner according to still another embodiment of the present invention as shown in fig. 2, the control method further comprising:

s214, judging whether the current humidity value is smaller than or equal to a second preset humidity value or not; if yes, go to step S212, otherwise go to step S210;

s216, controlling the second fog outlet pipe to be in an open state, and returning to the step S206;

wherein the second preset humidity value is smaller than the first preset humidity value.

The control method of the air conditioner provided by the invention has the advantages that whether the current humidity value is smaller than or equal to a second preset humidity value is judged, the second preset humidity value is smaller than the first preset humidity value, if yes, the humidity value of the indoor air is far smaller than the first preset humidity value, the second fog outlet pipe is controlled to be in the opening state, water fog flows into one side, far away from the air door, of the air wheel assembly through the second fog outlet pipe, the water fog flows into the room along with the airflow in the working state of the air wheel assembly to humidify the indoor air, the amount of the environmental water fog flowing into the room is increased, the humidity of the indoor air is favorably and rapidly increased to achieve the comfort level of a user, the satisfaction degree of the user is improved, meanwhile, the current environmental humidity is returned and detected in real time, and the control of the first fog outlet pipe is favorably controlled according to the relationship between the current humidity value and the first preset humidity value and the second, The opening state of the second fog outlet pipe and the working state of the atomizer are favorable for guaranteeing good and stable humidity of indoor air, the comfort level that the humidity of the indoor air is high and the user is influenced by continuous humidification is avoided, the satisfaction degree of the user is further improved, the use cost is saved, and the waste is avoided.

s218, detecting a sterilization instruction;

and S220, controlling the electrolytic water component to start working according to the sterilization command.

According to the control method of the air conditioner, the air conditioner controls the electrolytic water component to start working according to the sterilization instruction by detecting the sterilization instruction in the process of executing the humidifying air supply instruction, so that the electrolytic water component works and acts on water to generate acidic water ions with sterilization effect, the atomizer works and acts on the water containing the acidic water ions to generate water mist with sterilization effect, the indoor air can be sterilized while the water mist humidifies the indoor air, the sterility of the wind blown out to the external environment is guaranteed, the body health of a user is further facilitated, the requirements of users with weak or sensitive constitution can be met, the application range of products is expanded, the comfort level and the safety of the users are improved, the use experience of the users is improved, and the market competitiveness of the products is improved.

and S222, controlling the atomizer to stop working for a preset time and then restarting working.

According to the control method of the air conditioner, the atomizer is controlled to stop working for the preset time and then to restart working, so that the water in the atomization box is electrolyzed fully by the electrolytic water component to generate a large amount of acidic water ions, and then the atomizer restarts working, so that the water mist generated by the atomizer restarting has a good sterilization effect, the water in the atomization box is prevented from being electrolyzed insufficiently to influence the sterilization effect of the water mist when the atomizer works all the time, the good sterilization effect is effectively ensured, and the satisfaction degree of users is improved.

Furthermore, the atomizer is controlled to stop working for a preset time and then to restart working, on one hand, the atomizer can be controlled to restart working and continue to ensure the working state after stopping working for the preset time, on the other hand, the atomizer can be controlled to restart working after stopping working for the preset time and return to working intermittently after restarting working for a certain time, different working modes of the atomizer under the working state of the electrolytic water component can meet the use requirements of users on different side points of the sterilization function, the humidification function and the self-cleaning function, the application range is wide, and the use satisfaction of the users is further improved.

In one embodiment of the present invention, preferably, the operation mode command includes a self-cleaning command, as shown in fig. 3, a control method of an air conditioner according to another embodiment of the present invention, the control method including:

s302, detecting a working mode instruction;

s304, controlling the air door to be in a closed state and the first fog outlet pipe and the second fog outlet pipe to be in an open state according to a self-cleaning instruction, controlling the atomizer and the air wheel assembly to start working, and stopping the electrolytic water component.

The control method of the air conditioner provided by the invention has the advantages that the working mode instruction comprises a self-cleaning instruction, the air door is controlled to be in a closed state according to the self-cleaning instruction, the first fog outlet pipe and the second fog outlet pipe are both in an open state, the atomizer and the air wheel component are controlled to start working, the electrolytic water component stops working, so that water fog generated by water acted by the working of the atomizer flows into two sides of the air wheel component through the first fog outlet pipe and the second fog outlet pipe in the open state, the water fog flows in the air conditioner along with wind flow under the action of the air wheel component because the air door is in the closed state, and infiltrates the air wheel component and other components in the air conditioner, the dust accumulation amount in the air conditioner is effectively reduced, the cleanness in the air conditioner is improved, the condition that the user is influenced by the indoor environment along with the wind flow due to more dust accumulation in the air conditioner is avoided, and the cleanness of the wind blown out to the indoor environment is effectively, the health of the user is facilitated, the use experience of the user is improved, and the use satisfaction of the user is improved.

A control method of an air conditioner according to another embodiment of the present invention as shown in fig. 3, the control method further comprising:

and S306, controlling the first fog outlet pipe to be in a closed state.

The control method of the air conditioner provided by the invention controls the first fog outlet pipe to be in a closed state, and the second fog outlet pipe to be in an open state, and because the second fog outlet pipe is positioned at one side of the air wheel component far away from the air door and is positioned in the air inlet area of the air wheel component, the water fog generated by the work of the atomizer flows into the air inlet area of the air wheel component through the second fog outlet pipe, and when the air door is in the closed state, the water fog flows in the air conditioner along with the rotation of the air wheel component through the air flow, so that the wind wheel and other components in the air conditioner can be infiltrated, the dust deposition in the air conditioner is reduced, the cleanness in the air conditioner is effectively ensured, when the second fog outlet pipe is in the open state, the first fog outlet pipe is closed, the good cleanness in the air conditioner can be ensured, the use cost is saved, and the satisfaction degree of users is improved.

Furthermore, under the condition that the dust accumulation amount in the air conditioner is less, the first fog outlet pipe can be controlled to be in a closed state, the dust accumulation amount in the air conditioner can be effectively reduced by utilizing the water mist of the second fog outlet pipe, the good cleanliness in the air conditioner is ensured, the phenomenon that the workload of the atomizer is increased by simultaneously leading the water mist into the air conditioner through the first fog outlet pipe and the second fog outlet pipe under the condition that the dust accumulation amount in the air conditioner is less is avoided, the use cost is effectively saved, meanwhile, the water is saved, and the energy waste is avoided.

s308, detecting a sterilization instruction;

and S310, controlling the electrolytic water component to start to work according to the sterilization command.

According to the control method of the air conditioner, the air conditioner controls the electrolytic water part to start working according to the sterilization instruction by detecting the sterilization instruction in the process of executing the self-cleaning instruction, so that the electrolytic water part works and acts on water to generate acidic water ions with sterilization effect, the atomizer works and acts on the water containing the acidic water ions to generate water mist with sterilization effect, the interior of the air conditioner can be sterilized while the water mist self-cleans the interior of the air conditioner, good sterility of a wind wheel component and other structures in the air conditioner is guaranteed, the body health of a user is further facilitated, the requirements of users with weak or sensitive constitution can be met, the application range of products is expanded, the comfort level and safety of the users are improved, the use experience of the users is improved, and the market competitiveness of the products is improved.

and S312, controlling the atomizer to stop working for a preset time and then restarting working.

In an embodiment of the present invention, preferably, the operation mode command includes a humidification self-cleaning integrated command, and a control method of an air conditioner according to a further embodiment of the present invention as shown in fig. 4 includes:

s402, detecting a working mode instruction;

s404, controlling the air door, the first fog outlet pipe and the second fog outlet pipe to be in an open state according to the humidifying and self-cleaning comprehensive instruction, controlling the atomizer and the air wheel assembly to start working, and stopping the electrolytic water component.

The invention provides a control method of an air conditioner, wherein a working mode instruction comprises a humidifying self-cleaning comprehensive instruction, according to the humidifying self-cleaning comprehensive instruction, an air door, a first fog outlet pipe and a second fog outlet pipe are controlled to be in an open state, an atomizer and an air wheel component are controlled to start working, an electrolytic water component stops working, water mist generated by water during working of the atomizer flows into one side, close to the air door, of the air wheel component through the first fog outlet pipe, flows into indoor air through the air door in the open state along with the rotation of the air wheel component, humidifies the indoor air by the air door in the open state along with the rotation of the air wheel component, improves the humidity of the indoor environment, improves the use comfort of a user, meanwhile, the water mist flows into one side, far away from the air door, of the air wheel component through the second fog outlet pipe, and rotates along with the air wheel component through an air inlet area of the air wheel component, and soaks, the wind blown out to the indoor environment through the wind wheel is clean and dustless, the health of a user is facilitated, and the use experience of the user is improved.

A control method of an air conditioner according to still another embodiment of the present invention as shown in fig. 4, the control method further comprising:

s406, detecting a sterilization instruction;

and S408, controlling the electrolytic water component to start working according to the sterilization command.

The control method of the air conditioner provided by the invention has the advantages that in the process of executing the humidifying and self-cleaning comprehensive instruction, the air conditioner controls the electrolytic water component to start working according to the sterilization instruction by detecting the sterilization instruction, so that the electrolytic water component works and acts on water to generate acidic water ions with sterilization effect, the atomizer works and acts on the water containing the acidic water ions to generate water mist with sterilization effect, further, the indoor air and the inside of the air conditioner can be sterilized while the water mist humidifies the indoor air and cleans the inside of the air conditioner, the sterility of the inside of the air conditioner and the sterility of the wind blown out to the external environment are ensured, the body health of a user is further facilitated, the requirements of users with weak constitution or easy-to-sensitize are met, the use range of products is expanded, the comfort level and the safety of the use of the user are improved, and the use experience of the user is improved, improving the market competitiveness of the product.

and S410, controlling the atomizer to stop working for a preset time and then restarting working.

As shown in fig. 5a, according to the second embodiment of the present invention, a control system 500 of an air conditioner is further provided, the air conditioner includes an air wheel component and a panel, an air door is disposed on the panel, the air conditioner further includes an ultrasonic atomization component, the ultrasonic atomization component includes an atomization box, an electrolytic water component, an atomizer, a first mist outlet pipe and a second mist outlet pipe, the atomization box is used for containing water and is connected to the electrolytic water component, the atomizer, the first mist outlet pipe and the second mist outlet pipe respectively extend to two sides of the air wheel component, and the first mist outlet pipe is located on a side of the air wheel component close to the air door, the control system 500 of the air conditioner includes: a detection unit 52 for detecting an operation mode instruction; and the control unit 54 is used for controlling the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe and controlling the working states of the air wheel assembly, the atomizer and the electrolytic water part according to the working mode instruction.

The control system 500 of the air conditioner provided by the embodiment of the second aspect of the present invention includes an air wheel assembly, a panel and an ultrasonic atomization assembly, wherein an air door is disposed on the panel, the ultrasonic atomization assembly includes an atomization box, an electrolytic water component, an atomizer, a first mist outlet pipe and a second mist outlet pipe, the first mist outlet pipe and the second mist outlet pipe are connected to the atomization box and respectively extend to one side of the air wheel assembly close to the air door and the other side of the air wheel assembly, the unit detects a working mode instruction, the control unit 54 controls the opening states of the air door, the first mist outlet pipe and the second mist outlet pipe according to the working mode instruction, controls the working states of the air wheel assembly, the atomizer and the electrolytic water component, so that when the atomizer works on water in the atomization box to generate water mist, the air wheel assembly works to blow out the water mist to the indoor environment through the first mist outlet pipe in the opening state and the air door in the opening state to humidify the indoor air, the comfort level of the user is effectively improved; when the air door is in a closed state, water mist generated by the work of the atomizer flows in the air conditioner along with the work of the air wheel assembly through the second mist outlet pipe in an open state or the first mist outlet pipe and the second mist outlet pipe and can infiltrate the air wheel assembly and other components, thereby effectively reducing the dust deposition in the air conditioner, ensuring the cleanness in the air conditioner, enabling the air blown out of the air conditioner to be clean and dustless and being beneficial to the health of users; simultaneously, water production through the electrolytic water part work in the atomizing box has the acidic water ion of bactericidal action, make atomizer work function can produce the water smoke that has bactericidal action to the hydroenergy that contains the acidic water ion, and then guaranteed good bactericidal effect effectively when water smoke is to indoor air humidification and/or inside abluent, further guaranteed to blow off the aseptic nature to the wind of external environment, improve comfort level and the security that the user used, promote user's use and experience, improve the satisfaction that the user used.

Further, according to the operating mode instruction, the control air door, the first fog outlet pipe and the second fog outlet pipe are in different states through the control unit 54, the control air wheel assembly, the atomizer and the electrolytic water component are in different operating states, different functions of the air conditioner for humidifying indoor air, self-cleaning of the air conditioner, simultaneous implementation of humidification and self-cleaning can be realized, simultaneous implementation of humidification and sterilization of indoor air, simultaneous implementation of self-cleaning and sterilization of the indoor air, simultaneous implementation of different functions of sterilization, humidification and self-cleaning can be realized, the functions are various, the use requirements of different users can be met, the application range is wide, the functions can be realized by additionally arranging the atomizer component, the structure is simple, and the market competitiveness of products is effectively improved.

As shown in fig. 5b, in an embodiment of the present invention, preferably, the operation mode command includes a humidification air supply command, and the control unit 54 includes: the first execution unit 5402 is used for controlling the air door to be in an open state and controlling the air wheel assembly to start working according to the humidifying air supply instruction; a first detection unit 5404 for detecting the current environmental humidity in real time; a first judgment unit 5406 to judge whether the detected current humidity value is less than or equal to a first preset humidity value; a second execution unit 5408, configured to control the first mist outlet pipe to be in an open state and the second mist outlet pipe to be in a closed state when the determination result of the first determination unit 5406 is yes, and control the atomizer to start to operate and stop the operation of the electrolytic water component; otherwise, controlling the first fog outlet pipe and the second fog outlet pipe to be in a closed state, controlling the atomizer and the electrolytic water component to stop working, and returning to detect the current environment humidity in real time.

In this embodiment, the operation mode command includes a humidification air supply command, the first execution unit 5402 controls the air door to be in an open state according to the humidification air supply command, the air wheel assembly is controlled to start to operate, so as to ensure that the air conditioner can blow air in time, the first detection unit 5404 detects the current ambient humidity in real time, the first judgment unit 5406 judges whether the detected current humidity value is less than or equal to a first preset humidity value, if so, the current indoor ambient air humidity value is lower, the second execution unit 5408 controls the first mist outlet pipe to be in an open state, the second mist outlet pipe is in a closed state, the atomizer is controlled to start to operate, the electrolytic water component stops operating, so that water mist generated by the atomizer operates on water flows into one side of the air wheel assembly close to the air door through the first mist outlet pipe, and flows through the open air door with air in the operating state of the air wheel assembly to humidify the air in the indoor environment, the humidity of indoor air is effectively guaranteed, the comfort level of a user is improved, and the using satisfaction degree of the user is improved; when the current humidity value is greater than the first preset value, it is described that the indoor air humidity meets the requirements of users, the indoor air is not required to be humidified temporarily, the first fog outlet pipe and the second fog outlet pipe are controlled to be in a closed state through the second execution unit 5408, the atomizer and the electrolytic water component are controlled to stop working, the current environmental humidity is returned and detected in real time, the energy is effectively saved, the waste is avoided, the use cost is saved, whether the indoor air is humidified can be timely and accurately controlled according to the relation between the current humidity value and the first preset humidity value through detecting the current environmental humidity in real time, the satisfaction degree of the users is further improved, and the market competitiveness of products is improved.

As shown in fig. 5b, in one embodiment of the present invention, preferably, the control unit 54 further includes: a second determination unit 5410 configured to determine whether the current humidity value is less than or equal to a second preset humidity value; a third executing unit 5412, configured to, when the determination result of the second determining unit 5410 is yes, control the second mist outlet pipe to be in an open state, return to and detect the current ambient humidity in real time, otherwise, continue to control the first mist outlet pipe to be in the open state, and control the second mist outlet pipe to be in a closed state, and control the atomizer to start working, and stop working the electrolytic water component, where the second preset humidity value is smaller than the first preset humidity value.

In this embodiment, the second determining unit 5410 determines whether the current humidity value is less than or equal to a second preset humidity value, where the second preset humidity value is less than the first preset humidity value, if so, it indicates that the humidity value of the indoor air is much less than the first preset humidity value, the third executing unit 5412 controls the second mist outlet pipe to be in an open state, so that the water mist flows into one side of the wind wheel assembly away from the wind door through the second mist outlet pipe, and flows into the room along with the wind flow in a working state of the wind wheel assembly to humidify the indoor air, thereby increasing the amount of the water mist flowing into the indoor environment, facilitating the humidity of the indoor air to rise rapidly to achieve the comfort level of the user, and improving the satisfaction level of the user, and meanwhile, the third executing unit 5412 returns to detect the current environment humidity in real time, and facilitating the control of the first mist outlet pipe according to the relationship between the current humidity value and the first preset humidity value and the second preset humidity value, The opening state of the second fog outlet pipe and the working state of the atomizer are favorable for guaranteeing good and stable humidity of indoor air, the comfort level that the humidity of the indoor air is high and the user is influenced by continuous humidification is avoided, the satisfaction degree of the user is further improved, the use cost is saved, and the waste is avoided.

When the current humidity value is greater than the second preset humidity value, it is described that the humidity of the indoor environment is not low, the first fog outlet pipe is continuously controlled to be in the open state through the third execution unit 5412, the second fog outlet pipe is in the closed state, the atomizer is controlled to start to work, and the electrolytic water component stops working, so that the first fog outlet pipe is in the open state, the humidity of the indoor environment can be ensured to be fast and stably reach the comfort level of a user, the phenomenon that the second fog outlet pipe is opened simultaneously to increase the workload of the atomizer and waste energy is avoided, the use cost is effectively saved, and the satisfaction degree of the user is improved.

In one embodiment of the present invention, as shown in FIG. 5b, the operation mode command preferably comprises a self-cleaning command, and the control unit 54 comprises: and a fourth execution unit 5414, configured to control the air door to be in a closed state according to a self-cleaning instruction, control the first mist outlet pipe and the second mist outlet pipe to be in an open state, control the atomizer and the air wheel assembly to start working, and stop working the electrolytic water component.

In this embodiment, the operation mode command includes a self-cleaning command, the fourth execution unit 5414 controls the damper to be in a closed state according to the self-cleaning command, the first mist outlet pipe and the second mist outlet pipe are both in an open state, the atomizer and the air wheel assembly are controlled to start to operate, and the water electrolysis component stops operating, so that the water mist generated by the water generated by the operation of the atomizer flows into two sides of the air wheel assembly through the first mist outlet pipe and the second mist outlet pipe in the open state, and the water mist flows inside the air conditioner along with the wind flow under the action of the air wheel assembly and infiltrates the air wheel assembly and other components inside the air conditioner due to the closed state of the damper, thereby effectively reducing the dust deposition inside the air conditioner, improving the cleanness inside the air conditioner, preventing the dust deposition inside the air conditioner from being too much and blowing out to the indoor environment along with the wind flow to affect the health of users, and effectively ensuring that the wind to the indoor environment is clean and free of dust, the health of the user is facilitated, the use experience of the user is improved, and the use satisfaction of the user is improved.

As shown in fig. 5b, in an embodiment of the present invention, preferably, the fourth execution unit 5414 is further configured to control the first mist outlet pipe to be in a closed state.

In this embodiment, the fourth execution unit 5414 controls the first mist outlet pipe to be in a closed state, and the second mist outlet pipe to be in an open state, because the second mist outlet pipe is located on the side of the air wheel assembly away from the air door and is located in the air inlet area of the air wheel assembly, the water mist generated by the operation of the atomizer flows into the air inlet area of the air wheel assembly through the second mist outlet pipe, and when the air door is in the closed state, the water mist flows inside the air conditioner through the air flow along with the rotation of the air wheel assembly, so that the air wheel and other components inside the air conditioner can be infiltrated, the dust deposition inside the air conditioner is reduced, the cleanness inside the air conditioner is effectively ensured, when the second mist outlet pipe is in the open state, the first mist outlet pipe is closed, so that the good cleanness inside the air conditioner can be ensured, the use cost is saved, and the satisfaction degree of the user is improved.

As shown in fig. 5b, in an embodiment of the present invention, preferably, the operation mode command includes a humidification self-cleaning integrated command, and the control unit 54 includes: and a fifth execution unit 5416, configured to control the air door, the first mist outlet pipe, and the second mist outlet pipe to be in an open state according to the humidification self-cleaning comprehensive instruction, and control the atomizer and the air wheel assembly to start working, and stop working the electrolytic water component.

In this embodiment, the operation mode command includes a humidification self-cleaning comprehensive command, the fifth execution unit 5416 controls the air door, the first mist outlet pipe and the second mist outlet pipe to be in an open state according to the humidification self-cleaning comprehensive command, controls the atomizer and the air wheel assembly to start to operate, and stops the operation of the electrolytic water component, so that the water mist generated by the operation of the atomizer acts on the water and flows into one side of the air wheel assembly close to the air door through the first mist outlet pipe, and flows into the indoor environment through the air door in the open state to humidify the indoor air along with the rotation of the air wheel assembly, thereby improving the humidity of the indoor environment and the comfort level of the user, meanwhile, the water mist flows into one side of the air wheel assembly far away from the air door through the second mist outlet pipe, and rotates along with the air wheel assembly through the air inlet area of the air wheel assembly, and the water mist soaks the air wheel during the process of flowing through the air, the wind blown out to the indoor environment through the wind wheel is clean and dustless, the health of a user is facilitated, and the use experience of the user is improved.

As shown in fig. 5b, in one embodiment of the present invention, preferably, the control unit 54 further includes: a second detection unit 5418 for detecting a sterilization instruction; and a sixth execution unit 5420 for controlling the electrolytic water component to start operating according to the sterilization instruction.

In the embodiment, during the process of executing the humidifying and air supplying instruction, the self-cleaning instruction and the humidifying and self-cleaning comprehensive instruction, the air conditioner detects the sterilization instruction through the second detection unit 5418, the sixth execution unit 5420 controls the electrolytic water component to start working according to the sterilization instruction, so that the electrolytic water component works and acts on water to generate acidic water ions with sterilization effect, the atomizer works and acts on the water containing the acidic water ions to generate water mist with sterilization effect, and further, the indoor air can be humidified and/or the inside of the air conditioner can be sterilized while the water mist humidifies the indoor air and/or cleans the inside of the air conditioner, the sterility of the inside of the air conditioner and the sterility of wind blown out to the external environment are ensured, the body health of a user is further facilitated, the requirements of users with weak constitution or easy-sensitivity can be met, and the use range of products is expanded, the comfort level and the safety of the user use are improved, the use experience of the user is improved, and the market competitiveness of the product is improved.

In one embodiment of the present invention, as shown in fig. 5b, the sixth execution unit 5420 is further preferably configured to control the nebulizer to stop operating for a preset time period and then to restart operating.

In this embodiment, the sixth execution unit 5420 controls the atomizer to stop working for a preset time and then restart working, so that the atomizer restarts working after the water in the atomization box is fully electrolyzed by the electrolytic water component to generate a large amount of acidic water ions, and then the water mist generated by the atomizer restarting working can be ensured to have a good sterilization effect, the sterilization effect of the water mist is prevented from being influenced by insufficient electrolysis of the water in the atomization box when the atomizer works all the time, the good sterilization effect is effectively ensured, and the satisfaction degree of the user is improved.

As shown in fig. 6, according to another embodiment of the present invention, an air conditioner 600 is further provided, which includes the control system 500 of the air conditioner according to any of the above-mentioned technical solutions.

An embodiment of another aspect of the present invention provides an air conditioner 600, including the control system 500 of the air conditioner according to any of the above-mentioned technical solutions. Since the air conditioner 600 provided in an embodiment of another aspect of the present invention includes the control system 500 of the air conditioner provided in the embodiment of the second aspect, all the beneficial technical effects of the control system 500 of the air conditioner are achieved, and are not described herein again.

Further, as shown in fig. 7 to 14, the atomizer 104 and the electrolytic water component 106 of the ultrasonic atomization assembly 10 are both connected to the atomization box 102, so that the functions of the atomizer 104 to generate water mist and the electrolytic water component 106 to electrolyze water into water ions with sterilization function can be simultaneously satisfied, the structure of the ultrasonic atomization assembly 10 is simplified, the requirement of miniaturization of the structure of the ultrasonic atomization assembly 10 can be satisfied, the space occupancy rate inside the air conditioner is reduced, meanwhile, the first fog outlet pipe and the second fog outlet pipe respectively extend to two sides of the wind wheel component, so that sufficient water mist can be provided to ensure good humidity when humidifying indoor air, and meanwhile, water mist is provided from two sides of the air wheel component when the air conditioner is self-cleaned, so that a good cleaning effect is ensured, the using satisfaction of a user is further improved, and the market competitiveness of a product is improved. Further, as shown in fig. 9 to 13, the atomizer is located at the bottom of the atomizing box, so that the atomizer can work to generate mist from water even if water is in the atomizing box, the working conditions of the atomizer are expanded, and the satisfaction of users is improved.

In one embodiment of the present invention, preferably, the method further includes: the air duct component is arranged on one side of the air duct component close to the air door; the motor cover component is arranged on one side of the air wheel component far away from the air door and is connected with the air duct component; the evaporator component is arranged on one side of the motor cover component far away from the wind wheel component and is connected with the motor cover component; and the air duct rear partition plate is positioned between and connected with the motor cover component and the evaporator component, wherein the atomization box 102 of the ultrasonic atomization component 10 of the air conditioner is positioned above the air duct component and the motor cover component, the first fog outlet pipe is communicated with the air duct component, and the second fog outlet pipe is communicated with the air duct rear partition plate.

In the embodiment, the air conditioner also comprises an air duct component, a motor cover component, an evaporator component and an air duct rear partition board, wherein the air duct component is arranged on one side of the air duct component close to the air door, so that air generated by the operation of the air wheel is divided and guided by the air duct component and then is blown out to the indoor environment through the air door, different air outlet directions can be met, and the using satisfaction degree of a user is improved; the motor cover part sets up and is connected with the wind channel subassembly in the one side that the air door was kept away from to the wind wheel subassembly, make the wind wheel subassembly install the inside at motor cover part and wind channel subassembly, the evaporimeter subassembly sets up the one side of keeping away from the wind wheel subassembly at the motor cover part and is connected with the motor cover part, make the evaporimeter subassembly be located the air inlet district side of wind wheel subassembly, and then wind wheel subassembly work can make the energy transfer that evaporimeter subassembly work produced to one side that the wind wheel subassembly is close to the air door and blow off to indoor environment and realize heating or refrigeration, the baffle is located between motor cover part and the evaporimeter subassembly and connects motor cover part and evaporimeter subassembly behind the wind channel, can reduce the loss of the wind that wind wheel subassembly work produced in the inside of air conditioner, and then guarantee sufficient air output, the satisfaction. The atomization box 102 of the ultrasonic atomization assembly 10 of the air conditioner is positioned above the air duct assembly and the motor cover component, the first fog outlet pipe is communicated with the air duct assembly, the second fog outlet pipe is communicated with the air duct rear partition plate, the first fog outlet pipe and the second fog outlet pipe can be ensured to be respectively positioned at two sides of the air duct assembly, and then water mist flowing out of the first fog outlet pipe is smoothly and quickly blown out to an indoor environment through the air door after being shunted and guided by the air duct assembly in the working state of the air duct assembly, so that the requirements of users on humidification and air supply of air outlets where different air doors of the air conditioner are positioned are met, meanwhile, the loss of the water mist in the air conditioner is reduced, good fog outlet quantity is ensured, good humidification effect of indoor air is ensured, and the satisfaction degree of the users is improved; the water mist flowing out of the second mist outlet pipe soaks the air wheel assembly, the air duct rear partition plate and the motor cover component inside the air conditioner in the working state of the air wheel assembly, the dust deposition amount inside the air conditioner is reduced, the cleanness and the dust-free performance of air outlet of the air conditioner are further guaranteed, the use experience of a user is improved, and the use satisfaction of the user is improved.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a control method of air conditioner, the air conditioner includes wind wheel subassembly and panel, be provided with the air door on the panel, a serial communication port, the air conditioner still includes ultrasonic atomization subassembly, ultrasonic atomization subassembly includes atomizing box, water electrolysis spare, atomizer, first fog exit tube and second fog exit tube, the atomizing box be used for holding water and with water electrolysis spare the atomizer first fog exit tube with the second fog exit tube is connected, first fog exit tube with the second fog exit tube extends to the both sides of wind wheel subassembly respectively, just first fog exit tube is located one side that the wind wheel subassembly is close to the air door, the control method of air conditioner includes:

detecting a working mode instruction;

controlling the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe and controlling the working states of the air wheel assembly, the atomizer and the electrolytic water part according to the working mode instruction;

the operating mode instruction includes the humidification air supply instruction, according to the operating mode instruction, control the air door first fog exit tube the open mode of second fog exit tube controls the air wheel subassembly the atomizer the operating condition of electrolytic water part specifically includes:

controlling the air door to be in an open state according to the humidifying air supply instruction, and controlling the air wheel assembly to start working;

detecting the current environment humidity in real time;

judging whether the detected current humidity value is less than or equal to a first preset humidity value or not;

if yes, controlling the first fog outlet pipe to be in an open state, controlling the second fog outlet pipe to be in a closed state, controlling the atomizer to start working, and stopping the electrolytic water part from working;

otherwise, controlling the first fog outlet pipe and the second fog outlet pipe to be in a closed state, controlling the atomizer and the electrolytic water component to stop working, and returning and detecting the current environment humidity in real time.

2. The method for controlling an air conditioner according to claim 1, wherein the step of controlling the first mist outlet pipe to be in an open state and the second mist outlet pipe to be in a closed state, the step of controlling the atomizer to start operating, and the step of stopping the operation of the electrolytic water part further comprises:

judging whether the current humidity value is smaller than or equal to a second preset humidity value or not;

if yes, controlling the second fog outlet pipe to be in an open state, returning and detecting the current environment humidity in real time;

otherwise, the first fog outlet pipe is continuously controlled to be in an open state, the second fog outlet pipe is in a closed state, the atomizer is controlled to start working, and the electrolytic water part stops working;

3. The method for controlling an air conditioner according to claim 1, wherein the operation mode command includes a self-cleaning command, and the controlling the opening states of the damper, the first mist outlet pipe, and the second mist outlet pipe and the operating states of the damper wheel assembly, the atomizer, and the water electrolysis part according to the operation mode command specifically includes:

according to the self-cleaning instruction, the air door is controlled to be in a closed state, the first fog outlet pipe and the second fog outlet pipe are both in an open state, the atomizer and the air wheel assembly are controlled to start working, and the electrolytic water component stops working.

4. The control method of an air conditioner according to claim 3, further comprising:

and controlling the first fog outlet pipe to be in a closed state.

5. The method for controlling an air conditioner according to claim 1, wherein the operation mode command includes a humidification self-cleaning integrated command, and the controlling the opening states of the damper, the first mist outlet pipe and the second mist outlet pipe and the operating states of the damper wheel assembly, the atomizer and the electrolytic water component according to the operation mode command specifically includes:

according to the humidifying self-cleaning comprehensive instruction, the air door, the first fog outlet pipe and the second fog outlet pipe are controlled to be in an open state, the atomizer and the air wheel assembly are controlled to start working, and the electrolytic water component stops working.

6. The control method of an air conditioner according to any one of claims 1 to 5, further comprising:

detecting a sterilization instruction;

and controlling the electrolytic water component to start working according to the sterilization instruction.

7. The control method of an air conditioner according to claim 6, further comprising:

and controlling the atomizer to stop working for a preset time and then restarting working.

8. The utility model provides a control system of air conditioner, the air conditioner includes wind wheel subassembly and panel, be provided with the air door on the panel, a serial communication port, the air conditioner still includes ultrasonic atomization subassembly, ultrasonic atomization subassembly includes atomizing box, water electrolysis spare, atomizer, first fog exit tube and second fog exit tube, the atomizing box be used for holding water and with the water electrolysis spare the atomizer first fog exit tube with second fog exit tube is connected, first fog exit tube with second fog exit tube extends to respectively the both sides of wind wheel subassembly, just first fog exit tube is located wind wheel subassembly is close to one side of air door, the control system of air conditioner includes:

the detection unit is used for detecting the working mode instruction;

the control unit is used for controlling the opening states of the air door, the first fog outlet pipe and the second fog outlet pipe and controlling the working states of the air wheel assembly, the atomizer and the electrolytic water component according to the working mode instruction;

the operating mode instruction includes a humidification air supply instruction, and the control unit includes:

the first execution unit is used for controlling the air door to be in an open state according to the humidifying air supply instruction and controlling the air wheel assembly to start working;

the first detection unit is used for detecting the current environment humidity in real time;

the first judgment unit is used for judging whether the detected current humidity value is less than or equal to a first preset humidity value or not;

the second execution unit is used for controlling the first fog outlet pipe to be in an open state and the second fog outlet pipe to be in a closed state when the judgment result of the first judgment unit is yes, controlling the atomizer to start working and stopping the electrolytic water component; otherwise, controlling the first fog outlet pipe and the second fog outlet pipe to be in a closed state, controlling the atomizer and the electrolytic water component to stop working, and returning and detecting the current environment humidity in real time.

9. The control system of an air conditioner according to claim 8, said control unit further comprising:

the second judgment unit is used for judging whether the current humidity value is smaller than or equal to a second preset humidity value or not;

and the third execution unit is used for controlling the second fog outlet pipe to be in an open state and returning to and detecting the current environment humidity in real time when the judgment result of the second judgment unit is yes, otherwise, continuously controlling the first fog outlet pipe to be in the open state and the second fog outlet pipe to be in a closed state, controlling the atomizer to start working, and stopping the electrolytic water component, wherein the second preset humidity value is smaller than the first preset humidity value.

10. The control system of an air conditioner according to claim 8, wherein the operation mode command includes a self-cleaning command, and the control unit includes:

and the fourth execution unit is used for controlling the air door to be in a closed state according to the self-cleaning instruction, controlling the atomizer and the air wheel assembly to start working and stopping the electrolytic water component when the first fog outlet pipe and the second fog outlet pipe are both in an open state.

11. The control system of an air conditioner according to claim 10,

the fourth execution unit is further used for controlling the first fog outlet pipe to be in a closed state.

12. The control system of an air conditioner according to claim 8, wherein the operation mode command includes a humidification self-cleaning integrated command, and the control unit includes:

and the fifth execution unit is used for controlling the air door, the first fog outlet pipe and the second fog outlet pipe to be in an open state according to the humidifying and self-cleaning comprehensive instruction, controlling the atomizer and the air wheel assembly to start working, and stopping the electrolytic water component.

13. The control system of an air conditioner according to any one of claims 10 to 12, wherein the control unit further includes:

the second detection unit is used for detecting a sterilization instruction;

and the sixth execution unit is used for controlling the electrolytic water component to start working according to the sterilization instruction.

14. The control system of an air conditioner according to claim 13,

and the sixth execution unit is also used for controlling the atomizer to stop working for a preset time and then restart working.

15. An air conditioner, comprising:

a control system of an air conditioner according to any one of claims 8 to 14.

16. The air conditioner according to claim 15, further comprising:

the air duct assembly is arranged on one side, close to the air door, of the air wheel assembly;

the motor cover part is arranged on one side of the air duct component, which is far away from the air door, and is connected with the air duct component;

the evaporator component is arranged on one side of the motor cover component far away from the wind wheel component and is connected with the motor cover component,

an air duct rear partition plate positioned between the motor cover part and the evaporator assembly and connecting the motor cover part and the evaporator assembly,

the atomization box of the ultrasonic atomization assembly of the air conditioner is located above the air duct assembly and the motor cover component, the first mist outlet pipe is communicated with the air duct assembly, and the second mist outlet pipe is communicated with the air duct rear partition plate.